KR102490025B1 - Floor frame support system for flat slab in top-down method - Google Patents

Abstract

The present invention is a transverse hypothesis on the top of the bracket member By utilizing the STD system equipped with struts and longitudinal temporary braces in sequence, slab formwork is installed on top of the longitudinal temporary braces, and drop panel formation is installed on the top of the transverse temporary braces between the longitudinal temporary braces on both sides of the column member. By doing so, it is about a flat slab floor support frame support system for the reverse method that can improve workability while configuring the floor slab in a non-weighted plate structure.
The present invention includes a plurality of pillar members; A pair of bracket members detachably coupled to both sides of each of the pillar members; Transverse temporary beotimbo mounted across the bracket member adjacent to the upper portion of the bracket member; Longitudinal temporary beotimbo for supporting the slab formwork for floor slab casting, which is mounted across the transverse temporary beotimbo in succession to the upper part of the transverse temporary beotimbo and has a different height from the transverse temporary beotimbo; and a drop panel forming unit provided around the pillar member and accommodated in the space between the longitudinal temporary braces on the left and right sides of the pillar member to form a drop panel under the floor slab. It is characterized by consisting of.

Description

Flat slab floor support frame support system for back hitting method {Floor frame support system for flat slab in top-down method}

The present invention is a transverse hypothesis on the top of the bracket member By utilizing the STD system equipped with struts and longitudinal temporary braces in sequence, slab formwork is installed on top of the longitudinal temporary braces, and drop panel formation is installed on the top of the transverse temporary braces between the longitudinal temporary braces on both sides of the column member. By doing so, it is about a flat slab floor support frame support system for the reverse method that can improve workability while configuring the floor slab in a non-weighted plate structure.

The top-down method, in which the excavation and construction of the underground part is carried out downward while the construction of the ground part is also carried out upward, can shorten the period, have little impact on adjacent buildings, and reduce the weather during underground construction. It has less impact and less noise and vibration, so it is widely used in urban construction.

Among these, the conventional method supports the temporary retaining wall by installing struts and temporary columns before placing the reinforced concrete beams and slabs. However, the method has disadvantages in that installation of struts is complicated and construction is inconvenient due to strut interference.

In addition, the SPS method (Strut as Permanent System) is a method that allows the main steel structure itself to support the temporary retaining wall, and it is possible to shorten the construction period as excavation work can proceed immediately after the slab is placed. However, there is a limit to the decline in economic feasibility due to the increase in steel frame material costs.

In addition, the BRD method (Bracket supported RC Downward) is a method in which a reinforced concrete floor slab supports 100% of the earth pressure (Registration Patent No. 10-0605514). The method can be used repeatedly by lowering the formwork by supporting the floor slab and the girder formwork with brackets movably coupled to the column member. However, there is a problem of air delay because excavation cannot proceed until the girder and slab are cured and support the earth pressure.

In addition, the STD method (Strut Top Down) is intended to improve the problems of the conventional SPS method or the BRD method, and supports the slab formwork by using a temporary strut to support the temporary retaining wall (Patent No. 10-0912574). In addition, the bracket coupled to the column member to be movable up and down supports a pair of temporary braces and supports the slab formwork on top of the temporary braces. Accordingly, the construction period can be shortened as lower excavation is possible with temporary strut support at an early stage.

On the other hand, the floor slab constructed on each underground floor in the reverse hammering method serves as a horizontal support by acting as a diaphragm by in-plane stiffness against earth pressure and water pressure.

At this time, by installing a beam under the floor slab, it can be configured as a ramen group to transfer the load of the floor slab to the column member.

In this case, a yoke is installed on the top of the support girder mounted on the top of the bracket, and a beam and floor slab formwork are installed on the top of the yoke. However, since there is a difference in height between the lower surface of the floor slab and the lower surface of the beam, a separate support must be installed at the bottom of the floor slab formwork to float the floor slab formwork upward. However, the gap between the floor slab formwork and the support girder is narrow, making it very difficult to install and dismantle the shoring.

In addition, this ramen group has a complicated formwork shape, and since the floor slab formwork and beam formwork with steps must be installed directly on the upper part of the slab floor support frame, the construction is very cumbersome and the amount of excavation increases due to the increase in floor height. There is a problem.

Accordingly, in recent years, more and more sites are applying the non-removable plate structure, which is relatively easy to install formwork due to its simple cross section, is easy to construct, and can reduce the amount of excavation by reducing the height of floors.

In the case of constructing a floor slab with an unloaded plate structure, a drop panel is constructed at the bottom of the floor slab around the column member to prevent punching shear of the floor slab around the column member.

However, this also has a limit in improving workability because it still needs a support under the floor slab to form a step between the drop panel and the floor slab.

In particular, in the BRD method, the support girder is installed adjacent to the column member, and both the transverse support girder and the longitudinal support girder are installed at the same height, and the end is mounted on the upper surface of the bracket installed on the column member. Therefore, it seems difficult to secure space around the column, but there is no choice but to install the formwork for the drop panel installation on the upper part of the support girder.

In order to solve the above problems, the present invention is a transverse hypothesis on the top of the bracket member The floor slab is constructed as a flat plate structure by utilizing the STD system in which the vertical and longitudinal temporary braces are installed sequentially at different heights, and the longitudinal temporary brace is installed across the transverse temporary brace at a distance from the column member. It is intended to provide a flat slab floor support frame support system for the reverse method with improved workability while doing so.

The present invention according to a preferred embodiment is a plurality of pillar members; A pair of bracket members detachably coupled to both sides of each of the pillar members; Transverse temporary beotimbo mounted across the bracket member adjacent to the upper portion of the bracket member; Longitudinal temporary beotimbo for supporting the slab formwork for floor slab casting, which is mounted across the transverse temporary beotimbo in succession to the upper part of the transverse temporary beotimbo and has a different height from the transverse temporary beotimbo; And it is provided around the pillar member and is accommodated in the space between the longitudinal temporary braces on the left and right of the pillar member to form a drop panel below the floor slab. and a planar quadrangular side frame provided outside the drop panel above the longitudinal yoke and a lower panel mounted on the upper side of the longitudinal yoke inside the side frame to form a lower surface of the drop panel and an inner side of the side frame. a drop panel forming unit provided on the drop panel and composed of side panels forming side surfaces of the drop panel; To provide a flat slab floor support frame support system for the reverse method, characterized in that consisting of.

delete

In the present invention according to another preferred embodiment, a transverse yoke is installed on the upper part of the longitudinal temporary brace outside the drop panel forming part, and a reinforcing bar mounted on top of the longitudinal temporary brace outside the top of the side frame of the drop panel forming part It is intended to provide a flat slab floor support frame support system for the reverse method, characterized in that is provided.

According to another preferred embodiment of the present invention, the side frame is a lower module composed of a lower horizontal bar mounted on top of the longitudinal yoke and a plurality of lower vertical bars provided on top of the lower horizontal bar, and on top of the lower horizontal bar Flat slab floor support frame support for the reverse method, characterized in that it consists of an upper module composed of an upper horizontal bar provided to be spaced apart and an upper vertical bar provided at the bottom of the upper horizontal bar and coupled to the lower vertical bar and height-adjustable We want to provide a system.

The present invention according to another preferred embodiment is to provide a flat slab floor support frame support system for the reverse method, characterized in that the side frame is configured by combining unit modules having a U-shape on a plane.

According to the present invention, the transverse hypothesis on the top of the bracket member Utilizing the STD system in which struts and longitudinal temporary supports are sequentially installed, slab formwork is provided on the top of the longitudinal temporary supports, and between the longitudinal temporary supports on both sides of the column member, a drop panel is formed on the top of the transverse temporary supports. It is possible to provide a flat slab floor support frame support system for the reverse method equipped with a drop panel forming part.

Therefore, since the drop panel protruding from the bottom of the floor slab is accommodated in the space between the longitudinal temporary braces, the floor slab formwork can be directly installed on the top of the longitudinal temporary braces, and the workability is improved by omitting the shoring for supporting the floor slab formwork.

In addition, it is economical because it simplifies the formwork by forming the floor slab in an endless plate structure and reduces the amount of excavation by reducing the floor height.

In addition, since the longitudinal temporary braces are installed to cross the horizontal temporary braces adjacent to the upper part of the horizontal temporary braces continuously disposed on both sides of the column member, the spacing of the longitudinal temporary braces can be adjusted without increasing the size of the bracket to achieve various widths. Applicable to drop panels.

1 is a plan view illustrating an STD system;
Fig. 2 is a perspective view showing an STD system;
Figure 3 is a perspective view showing the coupling relationship between the pillar member and the bracket member.
Figure 4 is a perspective view showing the installation state of the temporary beotimbo.
5 is a perspective view showing an STD system equipped with a drop panel forming unit;
Fig. 6 is a sectional view showing a cross section taken along A in Fig. 5;
Fig. 7 is a sectional view showing the cross section taken along B in Fig. 5;
8 is a perspective view showing a coupling relationship between a side frame of a drop panel forming part and a panel;
Fig. 9 is a perspective view showing a drop panel forming part;
Figure 10 is a perspective view showing a state in which the yoke is installed on the upper part of the temporary beotimbo.
Fig. 11 is a perspective view showing an installed state of a drop panel forming part;
Figure 12 is a perspective view showing the installation state of the slab formwork.
Fig. 13 is a perspective view showing a height adjustable side frame;
Fig. 14 is a perspective view showing a split side frame;

Hereinafter, the present invention will be described in detail according to the accompanying drawings and preferred embodiments.

1 is a plan view showing an STD system, and FIG. 2 is a perspective view showing the STD system. And Figure 3 is a perspective view showing the coupling relationship between the pillar member and the bracket member, Figure 4 is a perspective view showing the installation state of the temporary beotimbo, Figure 5 is a perspective view showing the STD system provided with a drop panel forming unit.

As shown in Figures 1 to 4, etc., the flat slab floor support frame support system for the inverting method of the present invention includes a plurality of pillar members (2); A pair of bracket members 3 detachably coupled to both sides of each of the pillar members 2; A transverse temporary beotimbo (4a) mounted across the bracket member (3) adjacent to the upper portion of the bracket member (3); It is mounted continuously across the transverse temporary braces (4a) adjacent to the upper part of the transverse temporary braces (4a) to have a different height from the transverse temporary braces (4a). Slab for pouring the floor slab (6) Longitudinal temporary braces 4b supporting the formwork 61; And a drop panel provided around the pillar member 2 and accommodated in the space between the longitudinal temporary braces 4b on the left and right sides of the pillar member 2 to form the drop panel 60 below the floor slab 6. forming part 5; It is characterized by consisting of.

In the present invention, the transverse temporary brace (4a) and the longitudinal temporary brace (4b) are installed at different heights on the top of the bracket member (3), and the longitudinal temporary brace (4b) is spaced apart from the pillar member (2) It is to provide a flat slab floor support frame support system for the reverse method that improves workability while constructing the floor slab (6) as a non-weighted plate structure by utilizing the STD system installed across the transverse temporary brace (4a) at the location. .

The present invention can be applied to a reverse hitting method in which a basement floor slab is sequentially constructed from an upper layer to a lower layer using an STD system.

The flat slab floor support frame support system for the reverse hitting method of the present invention includes a column member (2), a bracket member (3), a transverse temporary brace (4a), a longitudinal temporary brace (4b) and a drop panel forming part (5) It is composed by

A plurality of the pillar members 2 are inserted into the ground so that they are spaced apart from each other after the construction of the underground retaining wall 1.

A pair of bracket members 3 are detachably coupled to both sides of each pillar member 2 (FIG. 3).

The bracket member 3 supports the upper transverse temporary braces 4a and the longitudinal temporary braces 4b, and is dismantled after curing the floor slab concrete of the corresponding floor to construct the lower layer. Temporary braces 4a and 4b It can be lowered together and used repeatedly.

On the top of the bracket member 3, a transverse temporary brace 4a and a longitudinal temporary brace 4b are sequentially constructed (FIG. 4).

That is, the transverse temporary beotimbo (4a) is supported on the upper portion of the bracket member (3), the longitudinal temporary beotimbo (4b) is supported on the upper portion of the transverse temporary beotimbo (4a).

The transverse temporary beotimbo (4a) is mounted on the upper portion of the bracket member (3) to cross the adjacent bracket member (3).

The longitudinal temporary brace (4b) is placed on top of the transverse temporary brace (4a) so as to cross the neighboring transverse temporary brace (4a) at a position spaced apart from the pillar member (2) on both sides of the pillar member (2) do.

Accordingly, a predetermined space is formed on both sides of the pillar member 2 by a pair of longitudinal temporary braces 4b.

The drop panel forming part 5 for constructing the drop panel 60 of the non-rear structure is accommodated in the space formed by the longitudinal temporary brace 4b.

The drop panel forming part 5 is provided around the pillar member 2, and is accommodated in the space between the longitudinal temporary braces 4b on the left and right of the pillar member 2, and the drop panel at the bottom of the floor slab 6 ( 60) form.

That is, as shown in FIG. 5, the slab formwork 61 for pouring the floor slab 6 is installed on top of the longitudinal temporary brace 4b, and the drop panel forming part for installing the drop panel 60 ( 5) can be installed on the top of the transverse temporary braces (4a) between the longitudinal temporary braces (4b) on both sides of the pillar member (2).

In the conventional BRD system, since the support girders in each direction are mounted on top of the brackets, the size of the brackets had to be increased to secure the spacing between the support girders.

In contrast, this invention is installed so that the longitudinal temporary beotimbo (4b) crosses the neighboring transverse temporary beotimbo (4a) at the top of the transverse temporary beotimbo (4a) disposed so that it is continuous on both sides of the pillar member (2). Therefore, it is possible to freely adjust the spacing of the longitudinal temporary braces 4b without increasing the size of the brackets.

Accordingly, by setting the distance between the longitudinal temporary braces 4b on both sides of the pillar member 2 to correspond to the width of the drop panel 60, the drop panel forming part 5 is accommodated in the longitudinal temporary braces 4b on both sides. It can be configured to be supported by the longitudinal temporary beotimbo (4b).

The drop panel 60 protruding from the bottom of the floor slab 6 is accommodated in the space between the longitudinal temporary braces 4b. As a result, the formwork 61 of the floor slab 6 can be installed directly on top of the longitudinal temporary brace 4b, and workability is greatly improved by omitting the installation of a shoring for supporting the slab formwork 61.

In addition, by forming the floor slab 6 in a flat plate structure, the formwork 61 is simplified, and the floor height is reduced to reduce the amount of excavation, which is excellent in economic efficiency.

FIG. 6 is a cross-sectional view taken along line A of FIG. 5 , and FIG. 7 is a cross-sectional view taken along line B of FIG. 5 . FIG. 8 is a perspective view showing the coupling relationship between the side frame and the panel of the drop panel forming part, and FIG. 9 is a perspective view showing the drop panel forming part.

As shown in FIGS. 6 to 9, the drop panel forming part 5 includes a longitudinal yoke 51 mounted on the upper portion of the transverse temporary braces 4a before and after the pillar member 2, the longitudinal yoke ( 51) A flat rectangular side frame 52 provided on the outside of the upper drop panel 60, which is mounted on top of the longitudinal yoke 51 inside the side frame 52 to It can be composed of a lower panel 53 forming the lower surface and a side panel 54 provided inside the side frame 52 to form the side surface of the drop panel 60 .

The longitudinal yoke 51 is disposed in a direction orthogonal to the temporary temporary brace 4a in the transverse direction, that is, in the same direction as the temporary temporary brace 4b.

The longitudinal yoke 51 is installed in a plurality of rows on the upper side of the adjacent transverse temporary braces 4a to support the lower panel 53 forming the lower surface of the drop panel 60, thereby reducing the sagging of the lower panel 53. prevent.

Since the transverse temporary braces 4a are continuously provided on both sides of the pillar member 2, the longitudinal yoke 51 of the drop panel forming part 5 can be freely placed on top of the transverse temporary braces 4a Do.

In the space between the longitudinal temporary braces 4b on both sides of the pillar member 2, a planar rectangular side frame 52 is inserted and mounted on the upper portion of the longitudinal yoke 51.

Both sides of the side frame 52 are supported on the inside of the outer longitudinal temporary struts 4b, respectively.

Inside the side frame 52, a lower panel 53 forming the lower surface of the drop panel 60 is provided to be mounted on the upper portion of the longitudinal yoke 51.

A side panel 54 for forming a side surface of the drop panel 60 is provided on each inner surface of the side frame 52 .

10 is a perspective view showing a state in which a yoke is installed on the upper portion of a temporary brace, FIG. 11 is a perspective view showing an installation state of a drop panel forming part, and FIG. 12 is a perspective view showing an installation state of a slab formwork.

As shown in FIGS. 6 and 10, a transverse yoke 62 is installed on the upper part of the temporary longitudinal brace 4b outside the drop panel forming part 5, and the drop panel forming part 5 A reinforcing bar 55 mounted on the upper side of the upper side of the frame 52 may be provided on the outer side of the longitudinal temporary brace 4b.

Transverse yokes 62 for preventing sagging of the slab formwork 61 by supporting the lower portion of the slab formwork 61 may be installed in a plurality of rows on the upper part of the longitudinal temporary brace 4b.

The transverse yoke 62 is installed outside the drop panel forming part 5 so that there is no mutual interference when the drop panel 60 is constructed.

The slab formwork 61 is installed above the longitudinal temporary brace 4b by the thickness of the transverse yoke 62. Therefore, the upper part of the side frame 52 is installed to protrude a certain length from the upper part of the longitudinal temporary brace 4b so that the upper end of the drop panel forming part 5 coincides with the height of the slab formwork 61.

At this time, a reinforcing bar 55 is provided on the outer side of the upper end of the side frame 52 so that the upper outer side of the side frame 52 of the drop panel forming part 5 can be supported by being placed on the upper side of the longitudinal temporary brace 4b. It can be.

The height of the reinforcing bar 55 is preferably formed to be positioned at the same height as the transverse yoke 62 so that the slab formwork 61 can be mounted on the upper surface of the reinforcing bar 55.

Since the longitudinal temporary braces 4b are continuously installed on both sides of the pillar member 2, the transverse yoke 62 can be freely placed on the upper portion of the vertical temporary braces 4b.

Referring to Figures 10 to 12 will be described in detail the construction process.

First, a longitudinal yoke 51 is installed on the top of the transverse temporary brace 4a (FIG. 10). Then, the transverse yoke 62 is installed on the upper part of the longitudinal temporary brace 4b, while the side frame 52 is installed on the upper part of the longitudinal yoke 51. At this time, the side frame 52 is installed so that the reinforcing bar 55 spans the upper part of the longitudinal temporary brace 4b (Figs. 10 and 11). Thereafter, the bottom panel 53 and the side panel 54 for the construction of the drop panel 60 are installed inside the side frame 52 on the upper side of the longitudinal yoke 51, while the upper side of the transverse yoke 62 Install the slab formwork 61 on (Figs. 11 and 12).

In the past, a yoke was installed in the transverse direction on the entire upper area of the temporary brace to support the beam formwork and support of the slab formwork, and the yoke was installed in the longitudinal direction to support the slab formwork on top of the transverse yoke slab area installed throughout. As a result, the yoke was doubled, which was uneconomical and took a lot of air.

However, in the present invention, the longitudinal yoke 51 is installed only at the lower position of the drop panel 60, and the transverse yoke 62 is installed only at the lower position of the floor slab 6. Therefore, since the longitudinal yoke 51 and the transverse yoke 62 do not overlap with each other, the amount required for the yoke can be reduced by almost half compared to the previous one, and thus construction costs and construction costs can be reduced.

13 is a perspective view showing a height-adjustable side frame;

As shown in FIG. 13, the side frame 52 includes a lower horizontal bar 521 mounted on top of the longitudinal yoke 51 and a plurality of lower vertical bars provided on top of the lower horizontal bar 521. The lower module 52a composed of 522 and the upper horizontal bar 523 provided to be spaced apart from the upper part of the lower horizontal bar 521 and the lower vertical bar provided below the upper horizontal bar 523 It may be composed of an upper module (52b) composed of an upper vertical bar (524) coupled to 522 and height adjustable.

The height of the side frame 52 is changed according to the thickness of the drop panel 60 .

Accordingly, the side frame 52 may be configured to be separated into a lower module 52a and an upper module 52b so that the height of the side frame 52 can be adjusted.

The lower module 52a is composed of a lower horizontal bar 521 mounted on top of the longitudinal yoke 51 and a plurality of lower vertical bars 522 vertically provided on top of the lower horizontal bar 521 can do.

The upper module 52b includes an upper horizontal bar 523 provided at a position spaced upward from the lower horizontal bar 521 and a plurality of upper vertical bars provided in a vertical direction below the upper horizontal bar 523 ( 524) can be configured.

At least one of the lower vertical bar 522 and the upper vertical bar 524 may be formed as a pipe with one side open so that the other vertical bar is inserted. Accordingly, the height of the side frame 52 can be adjusted according to the overlapping length of the lower vertical bar 522 and the upper vertical bar 524 .

13 shows an embodiment in which the upper vertical bar 524 is inserted into the lower vertical bar 522.

In this case, a plurality of through-holes (H) spaced vertically in any one of the lower vertical bar 522 and the upper vertical bar 524 may be formed, and at least one through-hole (H) may be formed in the other vertical bar. there is. And according to the height of the side frame 52, the height of the side frame 52 can be fixed by inserting a fixing pin 525 such as a bolt into any one of the through holes H of the upper and lower vertical bars 522 and 524. there is.

14 is a perspective view showing a split type side frame.

As shown in FIG. 14, the side frame 52 may be configured by combining unit modules 52' and 52" having a U-shape on a plane.

The side frame 52 can be repeatedly used when constructing each layer slab.

To this end, the side frame 52 must be dismantled after curing the drop panel 60 .

However, it is difficult to dismantle the side frame 52 composed of a rectangular closed section after constructing the drop panel 60 therein.

Therefore, to facilitate disassembly of the side frame 52, the center of the side frame 52 is divided to form a U-shaped unit module 52', 52", and a pair of unit modules 52', 52" It is possible to configure the side frame 52 by assembling.

The unit modules 52' and 52" allow the upper and lower vertical bars 522 and 524 to be positioned at the open end side, and to the upper and lower vertical bars 522 and 524 of the adjacent unit modules 52' and 52". By fastening the fixing pin 525, a pair of unit modules 52' and 52" can be coupled to each other.

After curing of the drop panel 60 is completed, the unit modules 52' and 52" can be separated and dismantled by removing the fixing pins 525.

1: retaining wall 2: column member
3: bracket member 4a: transverse temporary brace
4b: Longitudinal Temporary Support 5: Drop Panel Forming Unit
51: longitudinal yoke 52: side frame
52', 52": unit module 52a: lower module
52b: upper module 521: lower horizontal bar
522: lower vertical bar 523: upper horizontal bar
524: upper vertical bar 525: fixing pin
53: lower panel 54: side panel
55: reinforcement bar 6: floor slab
60: drop panel 61: slab formwork
62: transverse yoke H: through hole

Claims (5)

A plurality of pillar members (2);
A pair of bracket members 3 detachably coupled to both sides of each of the pillar members 2;
A transverse temporary beotimbo (4a) mounted across the bracket member (3) adjacent to the upper portion of the bracket member (3);
It is mounted continuously across the transverse temporary braces (4a) adjacent to the upper part of the transverse temporary braces (4a) to have a different height from the transverse temporary braces (4a). Slab for pouring the floor slab (6) Longitudinal temporary braces 4b supporting the formwork 61; and
It is provided around the pillar member 2 and is accommodated in the space between the longitudinal temporary braces 4b on the left and right of the pillar member 2 to form the drop panel 60 below the floor slab 6, the pillar A longitudinal yoke 51 mounted on the top of the transverse temporary brace 4a at the front and rear of the member 2 and a rectangular side frame on a plane provided on the outside of the drop panel 60 above the longitudinal yoke 51 ( 52) and the lower panel 53 which is mounted on the upper part of the longitudinal yoke 51 inside the side frame 52 and forms the lower surface of the drop panel 60 and is provided inside the side frame 52 a drop panel forming unit 5 composed of side panels 54 forming side surfaces of the drop panel 60; Flat slab floor support frame support system for the reverse method, characterized in that consisting of.
delete In paragraph 1,
A transverse yoke 62 is installed on the upper part of the longitudinal temporary brace 4b outside the drop panel forming part 5, and a longitudinal temporary yoke 62 is installed outside the top of the side frame 52 of the drop panel forming part 5 A flat slab floor support frame support system for the reverse method, characterized in that the reinforcing bar 55 mounted on the top of the brace (4b) is provided.
In paragraph 1,
The side frame 52 is composed of a lower horizontal bar 521 mounted on top of the longitudinal yoke 51 and a plurality of lower vertical bars 522 provided on top of the lower horizontal bar 521. Lower module (52a) and an upper horizontal bar 523 provided to be spaced apart from the upper portion of the lower horizontal bar 521 and a lower portion of the upper horizontal bar 523 to be adjustable in height with the lower vertical bar 522 A flat slab floor support frame support system for the reverse method, characterized in that it consists of an upper module (52b) composed of an upper vertical bar (524) to be coupled.
In paragraph 1,
The side frame 52 is a flat slab floor support frame support system for the reverse method, characterized in that configured by combining unit modules (52 ', 52 ") having a U-shape on a plane.

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